Cyclic resistance evaluation of marine clay based on CPTu data: a case study of Shaba Wind Farm

Cyclic resistance evaluation of marine clay based on CPTu data: a case study of Shaba Wind Farm

The offshore wind farm industry has recently experienced significant global growth. This study presents a thorough site investigation and analysis of the cyclic resistance of marine clay for offshore foundation design, using the Shaba wind farm in southern China as a case study. In-situ cone penetro...

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Bibliographic Details
Published in:Frontiers in Marine Science Vol. 10
Main Authors: Wu, Qi, Zhu, En-ci, Xiao, Xing, Li, Yuan-xi, Chen, Guo-xing
Format: Journal Article
Language:English
Published: Lausanne Frontiers Research Foundation 04-01-2024
Frontiers Media S.A
Subjects:
Accuracy
Boreholes
Case studies
Clay
CPTU
cyclic resistance
Laboratories
Laboratory tests
marine clay
Mechanical properties
Methods
Moisture content
Multiple regression analysis
Offshore
offshore wind farms
Regression analysis
Sedimentation & deposition
Shear strength
Shear tests
site investigation
Stratigraphy
Water content
Wind
Wind farms
China
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Summary:The offshore wind farm industry has recently experienced significant global growth. This study presents a thorough site investigation and analysis of the cyclic resistance of marine clay for offshore foundation design, using the Shaba wind farm in southern China as a case study. In-situ cone penetrometer (CPTu) tests and borehole sampling are conducted to explore the geotechnical characteristics of the soils. However, the soil conditions are characterized by multiple layers and complex sedimentary components. The classification and mechanical properties, such as water content and cyclic resistances, are compared through CPTu interpretation and laboratory tests. The findings indicated that a single physical indicator cannot determine cyclic resistance. In addition, the well-established method in existing literature proved unsuitable for marine clay. Consequently, multiple regression analysis shows that a linear relationship exist between cyclic resistance and depth-corrected CPTu index [ EXP ( q E / f s ) 0.3 / H ], hence a new evaluation method is developed to predict the cyclic resistance of marine clay based on CPTu data. This research aims to provide more reliable guidance for geotechnical investigations, supporting the rapid expansion of offshore wind farms.
ISSN:2296-7745
2296-7745
DOI:10.3389/fmars.2023.1300005